Yazar "Apaydın Özkan, Hanife" için listeleme
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An application for the control of stochastic petri nets via fluidification approach
Apaydın Özkan, Hanife (2012)Petri nets are frequently used for modeling and analysis of discrete event systems. Similar to other modeling formalisms for discrete systems, it suffers from state explosion. Fluidification can be used to overcome this ... -
A control method for timed distributed continuous Petri nets
Apaydın Özkan, Hanife; Júlvez, J.; Mahulea, C.; Silva, M. (2010)A timed distributed continuous Petri net system (DcontPN) is composed of several subsystems which communicate through channels modeled by places. In this work, a reachability control problem for DcontPNs composed of two ... -
Deadlock analysis for continuous Petri nets by using overlapping decompositions
Apaydın Özkan, Hanife; Aybar, Aydın (2007)The continuous Petri nets model, in which the tokens are denoted by real numbers and the firing of transitions depends on speeds of each transition and time, is considered to analyse deadlock in this work. Deadlock analysis, ... -
Petri net modelling of smart home appliances
Apaydın Özkan, Hanife (Institute of Electrical and Electronics Engineers Inc., 2017)In this work, some smart appliances (i.e., smart refrigerator and smart washing machine) and the corresponding smart home model are introduced to show the importance of smartness to improve user comfort and energy efficiency ... -
A program for analysis and control of Petri nets
Apaydın Özkan, Hanife; Manay, A; Aybar, Aydın; İftar, Altuğ (IEEE, 2004)Analysis and control algorithms are introduced for discrete-event systems which are modeled by Petri nets. A simulation and control design program is then developed to implement these algorithms. The program can simulate ... -
Shortest Path Algorithms For Petri Nets
Apaydın Özkan, Hanife (İstanbul University, Fac Engineering, 2016)Petri net is a mathematical and graphical tool for modeling and analysing discrete event systems. This paper focuses on a driving Petri net system from a given initial state to a desired state via minimum number of operations, ...